EP3755181B1 - Support cushions including a pocketed coil layer with a plurality of fabric types for directing air flow, and methods for controlling surface temperature of same - Google Patents
Support cushions including a pocketed coil layer with a plurality of fabric types for directing air flow, and methods for controlling surface temperature of same Download PDFInfo
- Publication number
- EP3755181B1 EP3755181B1 EP19756539.3A EP19756539A EP3755181B1 EP 3755181 B1 EP3755181 B1 EP 3755181B1 EP 19756539 A EP19756539 A EP 19756539A EP 3755181 B1 EP3755181 B1 EP 3755181B1
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- European Patent Office
- Prior art keywords
- pocketed
- group
- coils
- layer
- air
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Images
Classifications
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- A—HUMAN NECESSITIES
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- A—HUMAN NECESSITIES
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- A47C21/00—Attachments for beds, e.g. sheet holders, bed-cover holders; Ventilating, cooling or heating means in connection with bedsteads or mattresses
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- A47C21/042—Devices for ventilating, cooling or heating for ventilating or cooling
- A47C21/044—Devices for ventilating, cooling or heating for ventilating or cooling with active means, e.g. by using air blowers or liquid pumps
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- A47C21/00—Attachments for beds, e.g. sheet holders, bed-cover holders; Ventilating, cooling or heating means in connection with bedsteads or mattresses
- A47C21/04—Devices for ventilating, cooling or heating
- A47C21/042—Devices for ventilating, cooling or heating for ventilating or cooling
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- A—HUMAN NECESSITIES
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- A47C21/00—Attachments for beds, e.g. sheet holders, bed-cover holders; Ventilating, cooling or heating means in connection with bedsteads or mattresses
- A47C21/04—Devices for ventilating, cooling or heating
- A47C21/048—Devices for ventilating, cooling or heating for heating
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- A—HUMAN NECESSITIES
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- A—HUMAN NECESSITIES
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- A47C27/146—Spring, stuffed or fluid mattresses or cushions specially adapted for chairs, beds or sofas with foamed material inlays with projections, depressions or cavities on the outside surface of the mattress or cushion
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47C—CHAIRS; SOFAS; BEDS
- A47C27/00—Spring, stuffed or fluid mattresses or cushions specially adapted for chairs, beds or sofas
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- A47C27/20—Spring, stuffed or fluid mattresses or cushions specially adapted for chairs, beds or sofas with foamed material inlays with springs moulded in, or situated in cavities or openings in foamed material
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- A—HUMAN NECESSITIES
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- A47C—CHAIRS; SOFAS; BEDS
- A47C27/00—Spring, stuffed or fluid mattresses or cushions specially adapted for chairs, beds or sofas
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- A47C27/148—Spring, stuffed or fluid mattresses or cushions specially adapted for chairs, beds or sofas with foamed material inlays of different resilience
Definitions
- the present embodiments relate to support cushions and methods for controlling the surface temperature of support cushions.
- the present embodiments include support cushions, such as mattress assemblies, that make use of a pocketed coil layer with a plurality of materials utilized to encase the individual coils in order to direct air to the surfaces of the support cushions.
- KR 2017 0050471 A discloses a mattress comprising a functional layer with an air blowing fan, and a mattress, where wind introduced thereinto by the air blowing fan is able to move on an inner side.
- the mattress comprises a rear mattress, a central mattress, and a front mattress in a front direction from a rear surface.
- KR 101 073 761 B1 discloses a self-contained pocket spring mattress with a heat function, and more particularly, a hot air is arranged in a mattress with a self-contained pocket spring and heated to a predetermined temperature through the warmer. Heating function allows hot air to be easily circulated at the same time, and the heated hot air is led to the upper part of the air passage through the airflow phenomenon.
- sleep deprivation can have significant negative impacts on longevity, productivity, and overall mental, emotional, and physical health.
- Chronic sleep debt has been linked to weight gain and, more specifically, has been observed to not only affect the way the body processes and stores carbohydrates, but has also been observed to alter hormone levels that affect appetite.
- sleep debt may result in irritability, impatience, inability to concentrate, and moodiness, which has led some researchers to suggest a link between sleep debt and worksite accidents, traffic incidents, and general afternoon inattentiveness.
- the invention is defined by the independent claims.
- the dependent claims contain advantageous embodiments of the present invention.
- the present embodiments include support cushions and methods for controlling air flow through the support cushions.
- the present embodiments include support cushions, such as mattress assemblies, that make use of a pocketed coil layer made with a plurality of fabric types to direct air to the surfaces of the support cushions.
- the support cushions described herein allow a user to individualize their level of comfort, including sleep comfort, by controlling the amount and/or temperature of the air flowing to the surface of the support cushions.
- the support cushion includes a body supporting layer having a first surface and a second surface opposite the first surface; a pocketed coil layer adjacent the second surface of the body supporting layer comprising a first group of pocketed coils defining a perimeter of the pocketed coil layer and a second group of pocketed coils positioned within the perimeter; a base layer positioned adjacent the pocketed coil layer; a fan operably connected through a conduit to an inlet hole of the base layer, the fan for providing air flow into the inlet hole of the base layer, where the air flow is directed from the inlet hole of the base layer into the pocketed coil layer, through the second group of coils, and into and through the body support layer.
- the first group of pocketed coils includes a first fabric that is substantially air impermeable.
- the second group of pocketed coils includes a second fabric that is substantially air permeable.
- the body supporting layer defines a plurality of channels extending from the second surface to the first surface, the plurality of channels substantially aligned with the second group of pocketed coils.
- the second group of pocket coils are located in an interior section of the pocketed coil layer.
- the body supporting layer is comprised of a visco-elastic foam.
- the air flow is comprised of ambient air.
- the support cushion further includes a heating unit, a cooling unit, or both a heating unit and a cooling unit configured to provide thermally controlled air flow into the inlet hole of the base layer into the pocketed coil layer, through the second fabric of the second group of coils, and into and through the body support layer.
- the support cushion further includes a third group of pocketed coils intersecting the perimeter defined by the first group of pocketed coils, where the third group of coils divides the pocketed coil layer into two zones.
- the third group of pocketed coils laterally intersects the perimeter defined by the first group of pocket coils, where the third group of pocketed coils includes a first fabric that is substantially air impermeable.
- the third group of pocketed coils longitudinally intersects the perimeter defined by the first group of pocket coils, where the third group of pocketed coils includes a first fabric that is substantially air impermeable.
- the support cushion further includes a fourth group of pocketed coils intersecting the perimeter defined by the first group of pocketed coils at an opposing axis to the third group of pocketed coils, where the third and fourth groups of coils include a first fabric that is substantially air impermeable and divide the pocketed coil layer into four zones.
- an individual pocketed coil of the first group of pocketed coils has a different diameter than an individual pocketed coil of the second group of pocketed coils. In other embodiments, the individual pocketed coil of the first group of pocketed coils has a smaller diameter than the individual pocketed coil of the second group of pocketed coils.
- a method of controlling air flow through a support cushion includes the steps of: providing a support cushion having a body supporting layer having a first surface and a second surface opposite the first surface, a pocketed coil layer adjacent the second surface of the body supporting layer comprising a first group of pocketed coils defining a perimeter of the pocket coil layer and a second group of pocketed coils, where the first group of pocketed coils includes a first fabric and the second group of pocketed coils includes a second fabric, a base layer positioned adjacent the pocketed coil layer, a fan operably connected to an inlet hole of the base layer, the fan for providing air flow into the inlet hole of the base layer; supplying an electrical current to the fan such that the fan pushes a volume of air at a preselected velocity into the inlet hole of the base layer; and moving the amount of air from the inlet hole of the base layer through the second group of coils of the pocketed coil layer and out
- Support cushions and in particular, mattress assemblies may make use of a pocketed coil support layer.
- the pocketed coil support layer described herein may include a plurality of materials (e.g. air permeable fabrics and air impermeable fabrics) to direct the movement of air to the surface(s) of the support cushions. Therefore, the support cushions described herein may allow a user to individualize their level of comfort, including sleep comfort, by controlling the amount and/or temperature of the air flowing to the surface of the support cushions.
- a support cushion in the form of a mattress assembly 10 is illustrated, where the mattress assembly includes a body supporting layer 20 having a first surface 22 and a second surface 24 opposite the first surface 22.
- the mattress assembly 10 further includes a pocketed coil layer 40 positioned adjacent to the second surface 24 of the body supporting layer 20 and configured to support the body supporting layer 20.
- the pocketed coil layer 40 includes an upper portion 42 and a lower portion 44.
- the mattress assembly further includes a base layer 30 positioned adjacent to the lower portion 44 of the pocketed coil layer 40.
- the base layer 30, which may take the form of a flexible (including foam) platform structure to allow for use on an adjustable base, or a hard bottom, platform structure, or the like, provides a support surface upon which the pocketed coil layer 40 may sit.
- the base layer 30 may be substantially flat and stationary; while in other embodiments, the base layer 30 may be adjustable and capable of moving from a substantially flat position to any number of inclined positions as desired by a user and known in the art.
- the mattress assembly 10 may also have locating features for aligning the mattress assembly 10 and an adjustable base (not shown).
- the base layer 30 may also define at least one opening or an inlet hole 36, as discussed further below.
- FIGS. 1-3 contains only a single inlet, this is not intended to be limiting.
- the pocketed coil layer 40 includes a plurality of individually “pocketed” coils 42 1-n .
- Each individually pocketed coil 42 1-n may comprise a spring or coil 44 wrapped or encased within a fabric cover 47.
- This cover 47 may be known in the art as a spacer fabric, and may be permeable.
- the spacer fabric comprising the cover 47 may be formed of a bi-directionally stretched material, meaning it is stretchable in two dimensions, such as the horizontal directions, for example head to toe and laterally, side to side relative a bed.
- the spacer fabric may include a woven, or knit material, and/or may include extruded plastic materials including polyethylene, polyester, other plastics or combinations of any of these or others.
- These individually pocketed coils 42 1-n may then be arranged in rows or columns within a perimeter and sewn together to form a cohesive unit, for example the pocketed coil layer 40.
- the rows and columns are aligned such that each row forms a straight line and each column forms a straight line.
- the rows and columns are arranged so as to be offset from each other, for example forming a checkerboard-like pattern.
- the use of pocketed coils or a pocketed coil layer may provide for a more comfortable mattress surface as the coils become relatively individually flexible, so that each coil may flex separately without affecting the neighboring coils.
- the springs or coils 44 may be constructed of a steel wire, high carbon spring wire, high carbon piano wire, cooper coated high carbon wire, aluminum coated high carbon wire, cold drawn upholstery wire types "A", "B", or “C”, or any other types of wire known in the art.
- the wire used in the construction of the springs or coils 44 may range between 12 and 20 gauge.
- the springs or coils may be constructed of a polymer material, for example plastic or polyurethane.
- the springs or coils 44 may range in diameter from about 10 millimeters to about 150 millimeters.
- the raw height of the springs or coils 44 may range from about 12.7 mm (0.5 inches) to about 304.8 mm (12 inches), and the height or the spring or coil in the pocket may also range from about 12.7 mm (0.5 inches) to about 304.8 mm (12 inches).
- the spring or coil 44 preload ranges from 0 to 22.2411 N (5 pounds force), and spring rate ranges from 0.0017236893 to 0.0344737865 N/ mm 2 (0.25 to 5.0 pounds force per square inch).
- the coil geometry may be linear compression; while in other embodiments the coil geometry may be variable compression, linear cylindrical, or variable diameter in order to achieve variable compression. In some embodiments, such as illustrated in FIGS.
- foam 610 of any variety described herein may also be used within the pockets 615.
- FIG. 5A illustrates the foam 610 disposed on top of the coil 620; while, FIG. 5B illustrates the foam 610 disposed below the coil.
- the mattress assembly 10 further includes an air flow unit, here shown generally as a box 50, which is operably connected to the inlet hole 36 of the base layer 30 by way of a conduit 52.
- the air flow unit 50 may be embodied by a fan, although it is not so limited.
- the air flow unit 50 may be an air pump, a blower, or a compressor.
- a flange 56 is operably connected to and extending through the inlet hole of the base layer 30.
- the conduit 52 further includes a proximal end 51 and a distal end 55, where the distal end 55 includes a connector 54 that is configured to engage the flange 56 in order to provide fluid communication between the air flow unit 50 and the pocketed coil layer 40 through the inlet 36 of the base layer 30.
- the conduit 52 may be rigid or may be flexible and may be formed of a variety of materials.
- the conduit 52 is shown schematically and may be of a length so that the air flow unit 50 is located under the mattress assembly 10 or may extend beyond the periphery of the mattress assembly 10.
- the air flow unit 50 which in some instances may be embodied by a fan, provides air flow into the interior of the pocketed coil layer 40 by way of one or more conduits 52. It is known that as a user contacts a mattress assembly the temperature and/or humidity of the air nearest the surface of the mattress may increase due to dissipation of heat and/or moisture from the user's body.
- air flowing into the pocketed layer 40 may be ambient air that is solely moved by the air flow unit. Such movement may function to flush out warmer and/or higher humidity air from the area where the user contacts the mattress assembly.
- air flowing into the pocketed layer 40 may be conditioned, for example by removing moisture from the air, in order to improve the humidity level of the air nearest where the user contacts the mattress assembly.
- the air flow unit 50 may further include a heating unit, a cooling unit, or both a heating and cooling unit in order to provide thermally controlled air flow into the pocketed coil layer 40.
- the air flowing into the pocketed layer 40 may be heated and/or cooled, for example to a user selected temperature.
- the user selected temperature may range from between about 15 degrees C and 35 degrees C.
- the pocketed coil layer 40 in the exemplary embodiment shown in FIGS. 1-3 includes a first group of pocketed coils 46 that define a perimeter of the pocketed coil layer 40 and a second group of pocketed coils 48 that may include at least a portion of the interior section of the pocketed coil layer 40. As illustrated, this first group of pocketed coils 46 vary in size from the second group of pocketed coils 48. In some embodiments, the individual pocketed coils 42 of the first group 46 may have a smaller diameter than the individual pocketed coils 42 of the second group 48.
- the smaller diameter coils along the perimeter of the pocketed coil layer 40 may, in some instances, be desirable to increase stiffness around the perimeter, which may increase the aesthetic appearance and longevity of the pocketed coil layer 40.
- the first group of pocketed coils may be any size desirable or known in the art, and further may or may not be the same size as the individual coils 42 of the second group of coils 48.
- the outermost coils e.g. those that define the perimeter
- the outermost coils may be of two or more different diameters in order to provide a desired stiffness.
- the size and/or diameter of both the outermost coils (e.g. those that define the perimeter) as well as the interior coils should not be limiting, as design characteristics of the mattress may dictate variation in size and shape.
- each individually pocketed coil 42 1-n may comprise a spring or coil 44 wrapped or encased within a cover or spacer fabric 47.
- this cover or spacer fabric is a fabric material, and conventionally the same type of fabric material is utilized to encase each of the individual pocketed coils 42 1-n .
- the individual pocketed coils 42 of the first group of pocketed coils 46 are encased in a first type of material 47, while the individual pocketed coils 42 of the second group of pocketed coils 48 are encased in a second type of material 49.
- the first material 47 is a substantially air impermeable material.
- This first material 47 is an impermeable fabric, such as certain non-woven fabrics, fabrics with a urethane backing, and/or knit fabrics backed with thermoplastic polyurethane (TPU) (for example, the Tempur-Pedic ® Mattress Protector); however, this is not intended to be limiting, in other embodiments, the first material 47 may be an impermeable plastic, or some other flexible impermeable material.
- the second material 49 is a substantially air permeable material. This second material 49 is a permeable fabric, such as certain non-woven fabrics, woven fabrics, and/or knit fabric; however, this is not intended to be limiting as any other flexible permeable material may be used.
- the term “impermeable” is used herein to generally refer to a material which substantially prevents the movement of air through the material, including materials that are “low permeable” and may allow some vapor to escape; similarly, the use of the term “permeable” herein generally refers to a materially which substantially allows the movement of air through the material.
- ASTM Standard D737-04 Test Method for Air Permeability of Textile Fabrics is utilized in evaluating materials and classification of materials as permeable or impermeable.
- Encasing the individual pocketed coils 42 of the first group of pocketed coils 46 in an air impermeable material 47 and the second group of pocketed coils 48 in an air permeable material 49 may allow air flow to be directed in to one or more desired locations of the mattress assembly 10.
- the air flowing into the pocketed coil layer 40 from the inlet 36 of the base layer 30 cannot readily escape through the first group of pocketed coils 46 defining the perimeter of the pocketed coil layer 40 as they encased in an air impermeable material 47.
- This air impermeable material 47 forms a boundary or an envelope for air moving into and within the pocketed coil layer 40.
- the air cannot readily escape the base layer 30.
- the air flowing into the pocketed coil layer 40 will flow into the second group of coils 48, which are encased in an air permeable material 49, and ultimately through this second group of coils and through the overlying body supporting layer 20.
- the impermeable material 47 is shown along the boundary, it may also be used to define zones for air flow.
- the body supporting layer 20 may include a plurality of channels 26 that extend from the second surface 24 to the first surface 22.
- this plurality of channels 26 may substantially align with the second group of pocketed coils 48 encased in an air permeable material 49, allowing air to flow through the second group of pocketed coils 48 to the first surface 22 of the body supporting layer 20 through the plurality of channels 26.
- the channels 26 are illustrated in FIGS. 1-3 as having consistent density in either direction of the body supporting layer 20, in some embodiments it may be desirable for the density to be varied.
- the density of the channels may vary to support a desired air flow configuration.
- the body supporting layer 20 may depress resulting in the slight closure or blockage of one or more channels 26, but air flow may still continue through other channels 26.
- the second surface 24 of the body support layer 20 may also be substantially air impermeable.
- air impermeability of the second surface 24 of the body support layer 20 may be achieved by sealing the second surface. In some embodiments, this sealing may be accomplished by using a layer of air impermeable material or a layer of a low permeable material (e.g. thermoplastic polyurethane (TPU)) that is sealed using heat or ultrasonic techniques. This sealing may also be achieved by other means known in the art. In other embodiments, the second surface remains unsealed altogether.
- TPU thermoplastic polyurethane
- the body supporting layer 20 of the mattress assembly 10 is comprised of a continuous layer of flexible foam for suitably distributing pressure from a user's body or portion thereof across the body supporting layer 20.
- flexible foams include, but are not limited to, latex foam, reticulated or non-reticulated visco-elastic foam (sometimes referred to as memory foam or low-resilience foam), reticulated or non-reticulated non-visco-elastic foam, polyurethane high-resilience foam, expanded polymer foams (e.g., expanded ethylene vinyl acetate, polypropylene, polystyrene, or polyethylene), and the like.
- the body supporting layer 20 is comprised of a visco-elastic foam that has a low resilience as well as a sufficient density and hardness, which allows pressure to be absorbed uniformly and distributed evenly across the body supporting layer 20 of the mattress assembly 10.
- a visco-elastic foam that has a low resilience as well as a sufficient density and hardness, which allows pressure to be absorbed uniformly and distributed evenly across the body supporting layer 20 of the mattress assembly 10.
- such visco-elastic foams have a hardness of at least about 10 N to no greater than about 80 N, as measured by exerting pressure from a plate against a sample of the material to a compression of at least 40% of an original thickness of the material at approximately room temperature (i.e., 21°C to 23°C), where the 40% compression is held for a set period of time as established by the International Organization of Standardization (ISO) 2439 hardness measuring standard.
- ISO International Organization of Standardization
- the visco-elastic foam has a hardness of about 10N, about 20 N, about 30 N, about 40 N, about 50 N, about 60 N, about 70 N, or about 80 N to provide a desired degree of comfort and body-conforming qualities.
- the visco-elastic foam described herein for use in the mattress assembly 10 can also have a density that assists in providing a desired degree of comfort and body-conforming qualities, as well as an increased degree of material durability.
- the density of the visco-elastic foam used in the body supporting layer 20 has a density of no less than about 30 kg/m 3 to no greater than about 150 kg/m 3 .
- the density of the visco-elastic foam used in the body supporting layer 20 of the mattress assembly 10 is about 30 kg/m 3 , about 40 kg/m 3 , about 50 kg/m 3 , about 60 kg/m 3 , about 70 kg/m 3 , about 80 kg/m 3 , about 90 kg/m 3 , about 100 kg/m 3 , about 110 kg/m 3 , about 120 kg/m 3 , about 130 kg/m 3 , about 140 kg/m 3 , or about 150 kg/m 3 .
- a visco-elastic foam having a particular density will affect other characteristics of the foam, including its hardness, the manner in which the foam responds to pressure, and the overall feel of the foam, but it is appreciated that a visco-elastic foam having a desired density and hardness can readily be selected for a particular application or mattress assembly as desired. Additionally, it is appreciated that the body supporting layers of the mattress assemblies need not be comprised of a continuous layer of flexible foam at all, but can also take the form of more traditional mattresses, including spring-based mattresses.
- the pocketed coil layer 40 is arranged so that there is a single "zone" of the second group of pocketed coils 48, which are pocketed in an air permeable material. Such an arrangement creates a single zone where air can flow through the pocketed coil layer 40 and into and through the plurality of channels 26 that extend from the second surface 24 to the first surface 22 of the body supporting layer 20.
- FIGS. 4A and 4B Non-limiting examples of some of these contemplated arrangements are illustrated in FIGS. 4A and 4B .
- FIG. 4A another embodiment of a pocketed coil layer 400 disclosed herein is illustrated.
- the embodiment illustrated in FIG. 4A similar to the embodiment illustrated in FIGS. 1-3 , includes a first group of pocketed coils 402 defining a perimeter of the pocketed coil layer 400 and a second group of pocketed coils 404. Also similar to the embodiments described above, the individual coils of the first group of pocketed coils 402 are encased in an air impermeable material and the individual coils of the second group of pocketed coils 404 are encased in an air permeable material. However, unlike the embodiment described in FIGS. 1-3 , the pocketed coil layer 400 illustrated in FIG.
- FIG. 4A is divided into a first zone 410 and a second zone 420. These zones 410, 420 are created by a third group of pocketed coils 430 extending between two opposing sides of the perimeter defined by the first group of pocketed coils 402.
- the individual coils of the third group of pocketed coils 430 are also encased in an air impermeable material such as described herein, creating a barrier to air flow between the first zone 410 and the second zone 420.
- the third group of pocketed coils 430 is illustrated in FIG. 4A as extending between the two longer sides of the perimeter, which may create a different zone for each user of the overall mattress assembly. However, this is not intended to be limiting, as the third group of pocketed coils 430 may extended between any two sides of the perimeter to create desirable zones.
- FIG. 4B illustrates an additional embodiment of a pocketed coil layer 500, which includes a first group of pocketed coils 502 defining a perimeter of the pocketed coil layer 500 and a second group of pocketed coils 504.
- the individual coils of the first group of pocketed coils 502 are encased in an air impermeable material and the individual coils of the second group of pocketed coils 504 are encased in an air permeable material.
- the pocketed coil layer 500 illustrated in FIG. 4B is divided into a four zones: first zone 510, a second zone 520, a third zone 530, and a fourth zones 540.
- zones 510, 520, 530, 540 are created by the perpendicular intersection of a third group of pocketed coils 550 and a fourth group of pocketed coils 560.
- Each of the third 550 and the fourth 560 groups of pocketed coils extend between opposing sides of the perimeter of the pocketed coil layer defined by the first group of pocketed coils 502.
- the individual coils of the third 550 and fourth groups 560 of pocketed coils are encased in an air impermeable material such as described herein, creating a barrier to air flow between the first zone 510, second zone 520, third zone 530, and fourth zone 540.
- the pattern and/or density of the channels 26 may also vary in order to improve the control of the flow of air.
- the mattress assembly may further include a controller 60 for controlling the air flow unit which provides the air flow to the first surface of the body supporting layer.
- a controller in the mattress assembly, not only can the amount and/or velocity of air flow be controlled, but, in some embodiments, the temperature of the air flow may also be controlled to provide a desired amount of heating and/or cooling at the first surface of the body supporting layer of the mattress assembly.
- the controller may be wired; while in other embodiments, the controller may be wireless.
- the additional groups of pocketed coils 430, 550, 560 may create barriers to air flow between their respective zones 410, 420, 510, 520, 530, 540 of the pocketed coil layer 400, 500. Because of these barriers, a user may further control and customize their experience to tailor their specific thermocomfort desires. In some embodiments, a user may control the temperature and/or air flow from one or more fans to each of the zones 410, 420, 510, 520, 530, 540 created by the plurality of groups of pocketed coils independent of each other.
- the zones may be configured such that there is a zone for each bedmate, allowing each individual bedmate to independently control the temperature and/or airflow to their portion of the mattress assembly.
- the pocketed coil layer may be "zoned" so has to create a zone for controlling the temperature and/or airflow to the lower portion (e.g. a feet portion) of the mattress assembly and a zone for controlling the temperature and/or airflow to the upper portion (e.g. a head portion) of the mattress assembly.
- zones may be configured such that there is a zone for each bedmate's upper portion (e.g. a head portion) and each bedmate's lower portion (e.g. a feet portion), allowing each individual bedmate to independently control the temperature and/or airflow to their portions of the mattress assembly
- the air flow unit 50 is connected by the conduit 52 such that the air flow unit 50 is positioned a distance away from the rest of the mattress assembly 10, other positions are contemplated including mounting the air flow unit 50 to the base layer 30 and/or within the confines of the support cushion assembly 10.
- the body supporting layer of the mattress assembly is further covered by a comfort portion or layer that is positioned atop the body supporting layer and provides an additional level of comfort to a body of a user or a portion of thereof that is resting on the mattress assembly.
- a comfort layer may also be comprised of a visco-elastic foam.
- the comfort layer typically has a density, hardness, or both that is less than that of the body supporting layer of the mattress assembly, such that the comfort layer provides a softer surface on which to rest the body of a user or a portion thereof.
- the mattress assembly may further include a filter, such that only filtered air is allowed to pass into the inlet hole, and that the pocketed coil layer is kept free of particulates such as smoke, dust, dirt, pollen, mold, bacteria, hair, or insects that may otherwise collect in the interior of the mattress and limit air flow.
- a filter such that only filtered air is allowed to pass into the inlet hole, and that the pocketed coil layer is kept free of particulates such as smoke, dust, dirt, pollen, mold, bacteria, hair, or insects that may otherwise collect in the interior of the mattress and limit air flow.
- filters including, but not limited to, charcoal filters for removing chemicals and/or unpleasant odors may be readily incorporated into an exemplary mattress of the present invention.
- one or more air fresheners and/or perfumes may further be added to the mattress assemblies (e.g., before the fan) in order that scented air may be directed to the surface of the support cushion assemblies.
- a method of controlling air flow through a support cushion includes first providing a support cushion of the present invention. Electrical current is then supplied to the air flow unit such that the fan of the air flow unit pushes a preselected volume of air into the inlet hole of the base layer.
- the volume of air may range from 0.0 to about 2.0 cubic meters per minute.
- a user may select the desired volume of air to be delivered, while in other embodiments, the volume may be preselected.
- the adjustability in the volume of air flowing from the air flow unit may be accomplished a variety ways.
- this may be accomplished by varying the speed of a fan within the air flow unit in response to a user input. In other embodiments, this may be accomplished by altering the pitch of the blades of a fan within the air flow unit in response to a user input. In still other embodiments, this may be accomplished by altering the voltage supplied to a motor of the air flow unit in response to a user input.
- the volume of air is then moved from the inlet hole of the base layer through a group of coils of the pocketed coil layer, where each of the individual coils of this group of pocketed coils are encased in an air permeable material, and out of the first surface of a body supporting layer.
- the air flow unit includes a heating unit and/or a cooling unit
- electrical current may also be supplied to the heating and/or cooling unit such that the temperature of the air flowing out of the first surface of the body supporting layer may be adjusted, for example based on a user input to a controller.
Landscapes
- Mattresses And Other Support Structures For Chairs And Beds (AREA)
- Invalid Beds And Related Equipment (AREA)
Description
- The present embodiments relate to support cushions and methods for controlling the surface temperature of support cushions. In particular, the present embodiments include support cushions, such as mattress assemblies, that make use of a pocketed coil layer with a plurality of materials utilized to encase the individual coils in order to direct air to the surfaces of the support cushions.
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KR 2017 0050471 A -
KR 101 073 761 B1 - An aspect of successful and restful sleep is individual sleep comfort. Medical research suggests that sleep deprivation ("sleep debt") can have significant negative impacts on longevity, productivity, and overall mental, emotional, and physical health. Chronic sleep debt has been linked to weight gain and, more specifically, has been observed to not only affect the way the body processes and stores carbohydrates, but has also been observed to alter hormone levels that affect appetite. Moreover, sleep debt may result in irritability, impatience, inability to concentrate, and moodiness, which has led some researchers to suggest a link between sleep debt and worksite accidents, traffic incidents, and general afternoon inattentiveness. Furthermore, sleep disorders have been linked to hypertension, increased stress hormone levels, and irregular heartbeat, and additional research has recently suggested that a lack of sleep can affect immune function, resulting in increased susceptibility to illness and disease, e.g., cancer. In all, researchers have now suggested that sleep debt has significant economic impact due to lost productivity from some of the various effects described herein. Accordingly, a support cushion that improves sleep comfort and lowers individual sleep debt would be both highly desirable and beneficial.
- The invention is defined by the independent claims. The dependent claims contain advantageous embodiments of the present invention.
The present embodiments include support cushions and methods for controlling air flow through the support cushions. In particular, the present embodiments include support cushions, such as mattress assemblies, that make use of a pocketed coil layer made with a plurality of fabric types to direct air to the surfaces of the support cushions. Thus, the support cushions described herein allow a user to individualize their level of comfort, including sleep comfort, by controlling the amount and/or temperature of the air flowing to the surface of the support cushions. - According to the invention, the support cushion includes a body supporting layer having a first surface and a second surface opposite the first surface; a pocketed coil layer adjacent the second surface of the body supporting layer comprising a first group of pocketed coils defining a perimeter of the pocketed coil layer and a second group of pocketed coils positioned within the perimeter; a base layer positioned adjacent the pocketed coil layer; a fan operably connected through a conduit to an inlet hole of the base layer, the fan for providing air flow into the inlet hole of the base layer, where the air flow is directed from the inlet hole of the base layer into the pocketed coil layer, through the second group of coils, and into and through the body support layer.
- The first group of pocketed coils includes a first fabric that is substantially air impermeable. The second group of pocketed coils includes a second fabric that is substantially air permeable. In other embodiments, the body supporting layer defines a plurality of channels extending from the second surface to the first surface, the plurality of channels substantially aligned with the second group of pocketed coils. In some embodiments, the second group of pocket coils are located in an interior section of the pocketed coil layer.
- In some embodiments, the body supporting layer is comprised of a visco-elastic foam.
- In some embodiments, the air flow is comprised of ambient air. In other embodiments, the support cushion further includes a heating unit, a cooling unit, or both a heating unit and a cooling unit configured to provide thermally controlled air flow into the inlet hole of the base layer into the pocketed coil layer, through the second fabric of the second group of coils, and into and through the body support layer.
- In some embodiments, the support cushion further includes a third group of pocketed coils intersecting the perimeter defined by the first group of pocketed coils, where the third group of coils divides the pocketed coil layer into two zones. In other embodiments, the third group of pocketed coils laterally intersects the perimeter defined by the first group of pocket coils, where the third group of pocketed coils includes a first fabric that is substantially air impermeable. In still other embodiments, the third group of pocketed coils longitudinally intersects the perimeter defined by the first group of pocket coils, where the third group of pocketed coils includes a first fabric that is substantially air impermeable. In some embodiments, the support cushion further includes a fourth group of pocketed coils intersecting the perimeter defined by the first group of pocketed coils at an opposing axis to the third group of pocketed coils, where the third and fourth groups of coils include a first fabric that is substantially air impermeable and divide the pocketed coil layer into four zones.
- In some embodiments, an individual pocketed coil of the first group of pocketed coils has a different diameter than an individual pocketed coil of the second group of pocketed coils. In other embodiments, the individual pocketed coil of the first group of pocketed coils has a smaller diameter than the individual pocketed coil of the second group of pocketed coils.
- According to another aspect of the invention, a method of controlling air flow through a support cushion is disclosed herein. Such a method includes the steps of: providing a support cushion having a body supporting layer having a first surface and a second surface opposite the first surface, a pocketed coil layer adjacent the second surface of the body supporting layer comprising a first group of pocketed coils defining a perimeter of the pocket coil layer and a second group of pocketed coils, where the first group of pocketed coils includes a first fabric and the second group of pocketed coils includes a second fabric, a base layer positioned adjacent the pocketed coil layer, a fan operably connected to an inlet hole of the base layer, the fan for providing air flow into the inlet hole of the base layer; supplying an electrical current to the fan such that the fan pushes a volume of air at a preselected velocity into the inlet hole of the base layer; and moving the amount of air from the inlet hole of the base layer through the second group of coils of the pocketed coil layer and out of the first surface of the body supporting layer, wherein the first group of pocketed coils includes a first fabric that is substantially air impermeable wherein the second group of pocketed coils includes a second fabric that is substantially air permeable.
- Further features and advantages of the present invention will become evident to those of ordinary skill in the art after a study of the description, figures, and non-limiting examples in this document.
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FIG. 1 is a perspective view of an exemplary embodiment of a support cushion, in the form of a mattress assembly described herein; -
FIG. 2 is a cross-sectional view of the exemplary embodiment of the mattress assembly ofFIG. 1 taken along line 2-2 ofFIG. 1 ;FIG. 2A is an enlarged view of a portion of the cross-sectional view ofFIG. 2 ; -
FIG. 3 is an exploded, perspective view of the exemplary embodiment of the mattress assembly ofFIG. 1 ; and -
FIG. 4A-B are perspective views of additional embodiments of pocketed coil layers described herein. -
FIG. 5A-B are enlarged cross-sectional views of another exemplary embodiment of a mattress assembly.FIG. 5A illustrates a foam component disposed on top of a coil;FIG. 5B illustrates a foam component disposed below a coil. - Support cushions and in particular, mattress assemblies, may make use of a pocketed coil support layer. The pocketed coil support layer described herein may include a plurality of materials (e.g. air permeable fabrics and air impermeable fabrics) to direct the movement of air to the surface(s) of the support cushions. Therefore, the support cushions described herein may allow a user to individualize their level of comfort, including sleep comfort, by controlling the amount and/or temperature of the air flowing to the surface of the support cushions.
- Referring first to
FIGS. 1-3 , in one exemplary embodiment of the present disclosure, a support cushion in the form of amattress assembly 10 is illustrated, where the mattress assembly includes abody supporting layer 20 having afirst surface 22 and asecond surface 24 opposite thefirst surface 22. Themattress assembly 10 further includes a pocketedcoil layer 40 positioned adjacent to thesecond surface 24 of thebody supporting layer 20 and configured to support thebody supporting layer 20. Thepocketed coil layer 40 includes anupper portion 42 and alower portion 44. Finally, the mattress assembly further includes abase layer 30 positioned adjacent to thelower portion 44 of the pocketedcoil layer 40. - The
base layer 30, which may take the form of a flexible (including foam) platform structure to allow for use on an adjustable base, or a hard bottom, platform structure, or the like, provides a support surface upon which thepocketed coil layer 40 may sit. In some embodiments, thebase layer 30 may be substantially flat and stationary; while in other embodiments, thebase layer 30 may be adjustable and capable of moving from a substantially flat position to any number of inclined positions as desired by a user and known in the art. In embodiments, where the base is adjustable, themattress assembly 10 may also have locating features for aligning themattress assembly 10 and an adjustable base (not shown). As perhaps best illustrated inFIG. 3 , thebase layer 30 may also define at least one opening or aninlet hole 36, as discussed further below. It is to be understood that although the embodiment illustrated inFIGS. 1-3 contains only a single inlet, this is not intended to be limiting. In some embodiments, there may bemultiple inlets 36 positioned in various locations of thebase layer 30; in other embodiments, there may be one ormore inlets 36 per zone (zones are discussed in detail herein). Thesemultiple inlets 36 are represented by broken line holes. - Referring now to
FIGS. 2, 2A , and3 , the pocketedcoil layer 40 includes a plurality of individually "pocketed" coils 421-n. Each individually pocketedcoil 421-n may comprise a spring orcoil 44 wrapped or encased within afabric cover 47. Thiscover 47 may be known in the art as a spacer fabric, and may be permeable. In some instances, the spacer fabric comprising thecover 47 may be formed of a bi-directionally stretched material, meaning it is stretchable in two dimensions, such as the horizontal directions, for example head to toe and laterally, side to side relative a bed. The spacer fabric may include a woven, or knit material, and/or may include extruded plastic materials including polyethylene, polyester, other plastics or combinations of any of these or others. These individually pocketedcoils 421-n may then be arranged in rows or columns within a perimeter and sewn together to form a cohesive unit, for example the pocketedcoil layer 40. In some embodiments, the rows and columns are aligned such that each row forms a straight line and each column forms a straight line. In other embodiments, the rows and columns are arranged so as to be offset from each other, for example forming a checkerboard-like pattern. The use of pocketed coils or a pocketed coil layer may provide for a more comfortable mattress surface as the coils become relatively individually flexible, so that each coil may flex separately without affecting the neighboring coils. - In some embodiments, the springs or coils 44 may be constructed of a steel wire, high carbon spring wire, high carbon piano wire, cooper coated high carbon wire, aluminum coated high carbon wire, cold drawn upholstery wire types "A", "B", or "C", or any other types of wire known in the art. The wire used in the construction of the springs or coils 44 may range between 12 and 20 gauge. In other embodiments, the springs or coils may be constructed of a polymer material, for example plastic or polyurethane. In some embodiments, the springs or coils 44 may range in diameter from about 10 millimeters to about 150 millimeters. The raw height of the springs or coils 44 may range from about 12.7 mm (0.5 inches) to about 304.8 mm (12 inches), and the height or the spring or coil in the pocket may also range from about 12.7 mm (0.5 inches) to about 304.8 mm (12 inches). In some embodiments, the spring or
coil 44 preload ranges from 0 to 22.2411 N (5 pounds force), and spring rate ranges from 0.0017236893 to 0.0344737865 N/ mm2 (0.25 to 5.0 pounds force per square inch). In some embodiments, the coil geometry may be linear compression; while in other embodiments the coil geometry may be variable compression, linear cylindrical, or variable diameter in order to achieve variable compression. In some embodiments, such as illustrated inFIGS. 5A-B ,foam 610 of any variety described herein may also be used within thepockets 615. For example,FIG. 5A illustrates thefoam 610 disposed on top of thecoil 620; while,FIG. 5B illustrates thefoam 610 disposed below the coil. - Referring still to
FIGS. 2 and3 , themattress assembly 10 further includes an air flow unit, here shown generally as abox 50, which is operably connected to theinlet hole 36 of thebase layer 30 by way of aconduit 52. In some instances theair flow unit 50 may be embodied by a fan, although it is not so limited. In other instances, theair flow unit 50 may be an air pump, a blower, or a compressor. Specifically, as shown inFIG. 2 , aflange 56 is operably connected to and extending through the inlet hole of thebase layer 30. Theconduit 52 further includes aproximal end 51 and adistal end 55, where thedistal end 55 includes aconnector 54 that is configured to engage theflange 56 in order to provide fluid communication between theair flow unit 50 and the pocketedcoil layer 40 through theinlet 36 of thebase layer 30. Theconduit 52 may be rigid or may be flexible and may be formed of a variety of materials. Theconduit 52 is shown schematically and may be of a length so that theair flow unit 50 is located under themattress assembly 10 or may extend beyond the periphery of themattress assembly 10. - With respect to the
air flow unit 50, although not expressly shown, theair flow unit 50, which in some instances may be embodied by a fan, provides air flow into the interior of the pocketedcoil layer 40 by way of one ormore conduits 52. It is known that as a user contacts a mattress assembly the temperature and/or humidity of the air nearest the surface of the mattress may increase due to dissipation of heat and/or moisture from the user's body. In some embodiments, air flowing into the pocketedlayer 40 may be ambient air that is solely moved by the air flow unit. Such movement may function to flush out warmer and/or higher humidity air from the area where the user contacts the mattress assembly. In other embodiments, air flowing into the pocketedlayer 40 may be conditioned, for example by removing moisture from the air, in order to improve the humidity level of the air nearest where the user contacts the mattress assembly. - In still other embodiments, the
air flow unit 50 may further include a heating unit, a cooling unit, or both a heating and cooling unit in order to provide thermally controlled air flow into the pocketedcoil layer 40. In such embodiments the air flowing into the pocketedlayer 40 may be heated and/or cooled, for example to a user selected temperature. In such in embodiments, the user selected temperature may range from between about 15 degrees C and 35 degrees C. - As best illustrated in
FIG. 3 , the pocketedcoil layer 40 in the exemplary embodiment shown inFIGS. 1-3 includes a first group of pocketedcoils 46 that define a perimeter of the pocketedcoil layer 40 and a second group of pocketedcoils 48 that may include at least a portion of the interior section of the pocketedcoil layer 40. As illustrated, this first group of pocketedcoils 46 vary in size from the second group of pocketed coils 48. In some embodiments, the individual pocketedcoils 42 of thefirst group 46 may have a smaller diameter than the individual pocketedcoils 42 of thesecond group 48. The smaller diameter coils along the perimeter of the pocketedcoil layer 40 may, in some instances, be desirable to increase stiffness around the perimeter, which may increase the aesthetic appearance and longevity of the pocketedcoil layer 40. However, this is not intended to be limiting, as the first group of pocketed coils may be any size desirable or known in the art, and further may or may not be the same size as theindividual coils 42 of the second group of coils 48. Although only a single size is shown, in some embodiments, the outermost coils (e.g. those that define the perimeter) may be of two or more different diameters in order to provide a desired stiffness. The size and/or diameter of both the outermost coils (e.g. those that define the perimeter) as well as the interior coils should not be limiting, as design characteristics of the mattress may dictate variation in size and shape. - Returning now to
FIG. 2A , as previously mentioned, each individually pocketedcoil 421-n may comprise a spring orcoil 44 wrapped or encased within a cover orspacer fabric 47. Conventionally, this cover or spacer fabric is a fabric material, and conventionally the same type of fabric material is utilized to encase each of the individual pocketed coils 421-n. The individual pocketed coils of the first 46 and second 48 groups of pocketed coils in the exemplary embodiment shown inFIGS. 1-3 are encased in different materials; for example, in some instances, the individual pocketedcoils 42 of the first group of pocketedcoils 46 are encased in a first type ofmaterial 47, while the individual pocketedcoils 42 of the second group of pocketedcoils 48 are encased in a second type ofmaterial 49. Thefirst material 47 is a substantially air impermeable material. Thisfirst material 47 is an impermeable fabric, such as certain non-woven fabrics, fabrics with a urethane backing, and/or knit fabrics backed with thermoplastic polyurethane (TPU) (for example, the Tempur-Pedic® Mattress Protector); however, this is not intended to be limiting, in other embodiments, thefirst material 47 may be an impermeable plastic, or some other flexible impermeable material. Thesecond material 49 is a substantially air permeable material. Thissecond material 49 is a permeable fabric, such as certain non-woven fabrics, woven fabrics, and/or knit fabric; however, this is not intended to be limiting as any other flexible permeable material may be used. When used herein, the term "impermeable" is used herein to generally refer to a material which substantially prevents the movement of air through the material, including materials that are "low permeable" and may allow some vapor to escape; similarly, the use of the term "permeable" herein generally refers to a materially which substantially allows the movement of air through the material. ASTM Standard D737-04 "Test Method for Air Permeability of Textile Fabrics" is utilized in evaluating materials and classification of materials as permeable or impermeable. - Encasing the individual pocketed
coils 42 of the first group of pocketedcoils 46 in an airimpermeable material 47 and the second group of pocketedcoils 48 in an airpermeable material 49 may allow air flow to be directed in to one or more desired locations of themattress assembly 10. For example, the air flowing into the pocketedcoil layer 40 from theinlet 36 of thebase layer 30 cannot readily escape through the first group of pocketedcoils 46 defining the perimeter of the pocketedcoil layer 40 as they encased in an airimpermeable material 47. This airimpermeable material 47 forms a boundary or an envelope for air moving into and within the pocketedcoil layer 40. Furthermore, the air cannot readily escape thebase layer 30. Therefore, a substantial portion of the air flowing into the pocketedcoil layer 40 will flow into the second group ofcoils 48, which are encased in an airpermeable material 49, and ultimately through this second group of coils and through the overlyingbody supporting layer 20. Further, while theimpermeable material 47 is shown along the boundary, it may also be used to define zones for air flow. - To this end, and referring now to
FIG. 2 in particular, thebody supporting layer 20 may include a plurality ofchannels 26 that extend from thesecond surface 24 to thefirst surface 22. In some embodiments, this plurality ofchannels 26 may substantially align with the second group of pocketedcoils 48 encased in an airpermeable material 49, allowing air to flow through the second group of pocketedcoils 48 to thefirst surface 22 of thebody supporting layer 20 through the plurality ofchannels 26. - Although the
channels 26 are illustrated inFIGS. 1-3 as having consistent density in either direction of thebody supporting layer 20, in some embodiments it may be desirable for the density to be varied. For example, the may be desirable to increase air flow in at an upper portion of the body supporting layer (e.g. the torso area) but decrease the air flow at other portions of the body supporting layer (e.g. the head and feet areas); in such an example thechannels 26 corresponding to the upper portion of the body supporting layer (e.g. the torso area) may be more dense, while thechannels 26 corresponding to other portions of the body supporting layer (e.g. the head and feet areas) are less dense. Thus, in some embodiments, the density of the channels may vary to support a desired air flow configuration. Furthermore, as a user lays on the mattress assembly, thebody supporting layer 20 may depress resulting in the slight closure or blockage of one ormore channels 26, but air flow may still continue throughother channels 26. - In some embodiments, the
second surface 24 of thebody support layer 20 may also be substantially air impermeable. In some embodiments, air impermeability of thesecond surface 24 of thebody support layer 20 may be achieved by sealing the second surface. In some embodiments, this sealing may be accomplished by using a layer of air impermeable material or a layer of a low permeable material (e.g. thermoplastic polyurethane (TPU)) that is sealed using heat or ultrasonic techniques. This sealing may also be achieved by other means known in the art. In other embodiments, the second surface remains unsealed altogether. - With respect to the
body supporting layer 20, in the exemplary embodiment shown inFIGS. 1-3 , thebody supporting layer 20 of themattress assembly 10 is comprised of a continuous layer of flexible foam for suitably distributing pressure from a user's body or portion thereof across thebody supporting layer 20. Such flexible foams include, but are not limited to, latex foam, reticulated or non-reticulated visco-elastic foam (sometimes referred to as memory foam or low-resilience foam), reticulated or non-reticulated non-visco-elastic foam, polyurethane high-resilience foam, expanded polymer foams (e.g., expanded ethylene vinyl acetate, polypropylene, polystyrene, or polyethylene), and the like. In the embodiment shown inFIGS. 1-3 , thebody supporting layer 20 is comprised of a visco-elastic foam that has a low resilience as well as a sufficient density and hardness, which allows pressure to be absorbed uniformly and distributed evenly across thebody supporting layer 20 of themattress assembly 10. Generally, such visco-elastic foams have a hardness of at least about 10 N to no greater than about 80 N, as measured by exerting pressure from a plate against a sample of the material to a compression of at least 40% of an original thickness of the material at approximately room temperature (i.e., 21°C to 23°C), where the 40% compression is held for a set period of time as established by the International Organization of Standardization (ISO) 2439 hardness measuring standard. In some embodiments, the visco-elastic foam has a hardness of about 10N, about 20 N, about 30 N, about 40 N, about 50 N, about 60 N, about 70 N, or about 80 N to provide a desired degree of comfort and body-conforming qualities. - The visco-elastic foam described herein for use in the
mattress assembly 10 can also have a density that assists in providing a desired degree of comfort and body-conforming qualities, as well as an increased degree of material durability. In some embodiments, the density of the visco-elastic foam used in thebody supporting layer 20 has a density of no less than about 30 kg/m3 to no greater than about 150 kg/m3. In some embodiments, the density of the visco-elastic foam used in thebody supporting layer 20 of themattress assembly 10 is about 30 kg/m3, about 40 kg/m3, about 50 kg/m3, about 60 kg/m3, about 70 kg/m3, about 80 kg/m3, about 90 kg/m3, about 100 kg/m3, about 110 kg/m3, about 120 kg/m3, about 130 kg/m3, about 140 kg/m3, or about 150 kg/m3. Of course, the selection of a visco-elastic foam having a particular density will affect other characteristics of the foam, including its hardness, the manner in which the foam responds to pressure, and the overall feel of the foam, but it is appreciated that a visco-elastic foam having a desired density and hardness can readily be selected for a particular application or mattress assembly as desired. Additionally, it is appreciated that the body supporting layers of the mattress assemblies need not be comprised of a continuous layer of flexible foam at all, but can also take the form of more traditional mattresses, including spring-based mattresses. - In the embodiments shown in
FIGS. 1-3 , the pocketedcoil layer 40 is arranged so that there is a single "zone" of the second group of pocketedcoils 48, which are pocketed in an air permeable material. Such an arrangement creates a single zone where air can flow through the pocketedcoil layer 40 and into and through the plurality ofchannels 26 that extend from thesecond surface 24 to thefirst surface 22 of thebody supporting layer 20. However, it is contemplated that in some instances other arrangements may be desirable. Non-limiting examples of some of these contemplated arrangements are illustrated inFIGS. 4A and4B . - Referring now to
FIG. 4A , another embodiment of a pocketedcoil layer 400 disclosed herein is illustrated. The embodiment illustrated inFIG. 4A , similar to the embodiment illustrated inFIGS. 1-3 , includes a first group of pocketedcoils 402 defining a perimeter of the pocketedcoil layer 400 and a second group of pocketed coils 404. Also similar to the embodiments described above, the individual coils of the first group of pocketedcoils 402 are encased in an air impermeable material and the individual coils of the second group of pocketedcoils 404 are encased in an air permeable material. However, unlike the embodiment described inFIGS. 1-3 , the pocketedcoil layer 400 illustrated inFIG. 4A is divided into afirst zone 410 and asecond zone 420. Thesezones coils 430 extending between two opposing sides of the perimeter defined by the first group of pocketed coils 402. The individual coils of the third group of pocketedcoils 430 are also encased in an air impermeable material such as described herein, creating a barrier to air flow between thefirst zone 410 and thesecond zone 420. The third group of pocketedcoils 430 is illustrated inFIG. 4A as extending between the two longer sides of the perimeter, which may create a different zone for each user of the overall mattress assembly. However, this is not intended to be limiting, as the third group of pocketedcoils 430 may extended between any two sides of the perimeter to create desirable zones. -
FIG. 4B illustrates an additional embodiment of a pocketedcoil layer 500, which includes a first group of pocketedcoils 502 defining a perimeter of the pocketedcoil layer 500 and a second group of pocketed coils 504. The individual coils of the first group of pocketedcoils 502 are encased in an air impermeable material and the individual coils of the second group of pocketedcoils 504 are encased in an air permeable material. However, unlike the embodiment described inFIGS. 4A , the pocketedcoil layer 500 illustrated inFIG. 4B is divided into a four zones: first zone 510, asecond zone 520, athird zone 530, and afourth zones 540. Thesezones coils 550 and a fourth group of pocketed coils 560. Each of the third 550 and the fourth 560 groups of pocketed coils extend between opposing sides of the perimeter of the pocketed coil layer defined by the first group of pocketed coils 502. The individual coils of the third 550 andfourth groups 560 of pocketed coils are encased in an air impermeable material such as described herein, creating a barrier to air flow between the first zone 510,second zone 520,third zone 530, andfourth zone 540. In some embodiments, the pattern and/or density of thechannels 26 may also vary in order to improve the control of the flow of air. - As a further refinement, the mattress assembly may further include a
controller 60 for controlling the air flow unit which provides the air flow to the first surface of the body supporting layer. By including a controller in the mattress assembly, not only can the amount and/or velocity of air flow be controlled, but, in some embodiments, the temperature of the air flow may also be controlled to provide a desired amount of heating and/or cooling at the first surface of the body supporting layer of the mattress assembly. In some embodiments the controller may be wired; while in other embodiments, the controller may be wireless. - As illustrated in
FIG. 4A-B , the additional groups of pocketedcoils respective zones coil layer zones - For example, in some embodiments, as illustrated in
FIG. 4A , the zones may be configured such that there is a zone for each bedmate, allowing each individual bedmate to independently control the temperature and/or airflow to their portion of the mattress assembly. In other embodiments, the pocketed coil layer may be "zoned" so has to create a zone for controlling the temperature and/or airflow to the lower portion (e.g. a feet portion) of the mattress assembly and a zone for controlling the temperature and/or airflow to the upper portion (e.g. a head portion) of the mattress assembly. - As an additional example, in other embodiments, such as illustrated in
FIG. 4B , zones may be configured such that there is a zone for each bedmate's upper portion (e.g. a head portion) and each bedmate's lower portion (e.g. a feet portion), allowing each individual bedmate to independently control the temperature and/or airflow to their portions of the mattress assembly - As a refinement, although in the embodiments shown in
FIGS. 1-3 , theair flow unit 50 is connected by theconduit 52 such that theair flow unit 50 is positioned a distance away from the rest of themattress assembly 10, other positions are contemplated including mounting theair flow unit 50 to thebase layer 30 and/or within the confines of thesupport cushion assembly 10. - As an additional refinement, and although not shown in the figures, additional components or layers may also be included with the mattress assembly of the present invention. For example, in some embodiments, the body supporting layer of the mattress assembly is further covered by a comfort portion or layer that is positioned atop the body supporting layer and provides an additional level of comfort to a body of a user or a portion of thereof that is resting on the mattress assembly. Such a comfort layer may also be comprised of a visco-elastic foam. However, the comfort layer typically has a density, hardness, or both that is less than that of the body supporting layer of the mattress assembly, such that the comfort layer provides a softer surface on which to rest the body of a user or a portion thereof.
- As a further refinement, and in order to ensure that fresh air is entering the base layer, the mattress assembly may further include a filter, such that only filtered air is allowed to pass into the inlet hole, and that the pocketed coil layer is kept free of particulates such as smoke, dust, dirt, pollen, mold, bacteria, hair, or insects that may otherwise collect in the interior of the mattress and limit air flow. Of course, it is contemplated that various types of filters including, but not limited to, charcoal filters for removing chemicals and/or unpleasant odors may be readily incorporated into an exemplary mattress of the present invention. In some embodiments, it is further contemplated that one or more air fresheners and/or perfumes may further be added to the mattress assemblies (e.g., before the fan) in order that scented air may be directed to the surface of the support cushion assemblies.
- Each of the exemplary support cushions and/or mattress assemblies described herein can also be used as part of a method of controlling air flow through a support cushion. In some implementations, a method of controlling air flow through a support cushion includes first providing a support cushion of the present invention. Electrical current is then supplied to the air flow unit such that the fan of the air flow unit pushes a preselected volume of air into the inlet hole of the base layer. In some embodiments, the volume of air may range from 0.0 to about 2.0 cubic meters per minute. In some embodiments a user may select the desired volume of air to be delivered, while in other embodiments, the volume may be preselected. The adjustability in the volume of air flowing from the air flow unit may be accomplished a variety ways. For example, in some embodiments, this may be accomplished by varying the speed of a fan within the air flow unit in response to a user input. In other embodiments, this may be accomplished by altering the pitch of the blades of a fan within the air flow unit in response to a user input. In still other embodiments, this may be accomplished by altering the voltage supplied to a motor of the air flow unit in response to a user input.
- The volume of air is then moved from the inlet hole of the base layer through a group of coils of the pocketed coil layer, where each of the individual coils of this group of pocketed coils are encased in an air permeable material, and out of the first surface of a body supporting layer. For embodiments where the air flow unit includes a heating unit and/or a cooling unit, electrical current may also be supplied to the heating and/or cooling unit such that the temperature of the air flowing out of the first surface of the body supporting layer may be adjusted, for example based on a user input to a controller.
- One of ordinary skill in the art will recognize that additional embodiments are also possible without departing from the teachings of the present invention or the scope of the claims which follow. This detailed description, and particularly the specific details of the exemplary embodiments disclosed herein, is given primarily for clarity of understanding, and no unnecessary limitations are to be understood therefrom, for modifications will become apparent to those skilled in the art upon reading this disclosure and may be made without departing from the scope of the claimed invention.
Claims (13)
- A support cushion (10), comprising:a body supporting layer (20) having a first surface (22) and a second surface (24) opposite the first surface (22);a pocketed coil layer (40) adjacent the second surface (24) of the body supporting layer (20) comprising a first group of pocketed coils (46) defining a perimeter of the pocketed coil layer (40) and a second group of pocketed coils (48) positioned within the perimeter;a base layer (30) positioned adjacent the pocketed coil layer (40);a fan (50) operably connected through a conduit (52) to an inlet hole of the base layer (30), the fan (50) for providing air flow into the inlet hole of the base layer (30),wherein the air flow is directed from the inlet hole of the base layer (30) into the pocketed coil layer (40), through the second group of pocketed coils (48), and into and through the body support layer,wherein the first group of pocketed coils (46) includes a first fabric (47) that is air impermeable, andwherein the second group of pocketed coils (48) includes a second fabric (49) that is air permeable.
- The support cushion (10) of claim 1, wherein the body supporting layer (20) defines a plurality of channels (26) extending from the second surface (24) to the first surface (22), the plurality of channels (26) substantially aligned with the second group of pocketed coils (48).
- The support cushion (10) of claim 1, wherein the second group of pocketed coils (48) are located in an interior section of the pocketed coil layer (40).
- The support cushion (10) of claim 1, wherein the body supporting layer (20) is comprised of a visco-elastic foam.
- The support cushion (10) of claim 1, wherein the air flow is comprised of ambient air.
- The support cushion (10) of claim 1, wherein the fan is disposed within an air flow unit, said air flow unit further comprising a heating unit, a cooling unit, or both a heating unit and a cooling unit configured to provide thermally controlled air flow into the inlet hole of the base layer (30) into the pocketed coil layer (40), through the second fabric (49) of the second group of coils (48), and into and through the body support layer.
- The support cushion (10) of claim 1, further comprising a third group of pocketed coils (430) intersecting the perimeter defined by the first group of pocketed coils (46), wherein the third group of coils divides the pocketed coil layer (40) into two zones (410, 420).
- The support cushion (10) of claim 7, wherein the third group of pocketed coils (430) laterally intersects the perimeter defined by the first group of pocketed coils, wherein the third group of pocketed coils (430) includes a first fabric (47) that is substantially air impermeable.
- The support cushion (10) of claim 7, wherein the third group of pocketed coils (430)
longitudinally intersects the perimeter defined by the first group of pocketed coils (46), wherein the third group of pocketed coils (430) includes a first fabric (47) that is substantially air impermeable. - The support cushion (10) of claim 7, further comprising a fourth group of pocketed coils (560) intersecting the perimeter defined by the first group of pocketed coils (46) at an opposing axis to the third group of pocketed coils (430), wherein the third and fourth groups of coils include a first fabric (47) that is substantially air impermeable and divide the pocketed coil layer (40) into four zones (510, 520, 530, 540).
- The support cushion (10) of claim 1, wherein an individual pocketed coil of the first group of pocketed coils (46) has a different diameter than an individual pocketed coil of the second group of pocketed coils (48).
- The support cushion (10) of claim 11, wherein the individual pocketed coil of the first group of pocketed coils (46) has a smaller diameter than the individual pocketed coil of the second group of pocketed coils (48).
- A method of controlling air flow through a support cushion (10), comprising the steps of:providing a support cushion (10) havinga body supporting layer (20) having a first surface (22) and a second surface (24) opposite the first surface (22),a pocketed coil layer (40) adjacent the second surface (24) of the body supporting layer (20) comprising a first group of pocketed coils (46) defining a perimeter of the pocketed coil layer (40) and a second group of pocketed coils (48), wherein the first group of pocketed coils (46) includes a first fabric (47) and the second group of pocketed coils (48) includes a second fabric (49),a base layer (30) positioned adjacent the pocketed coil layer (40), anda fan (50) operably connected to an inlet hole of the base layer (30), the fan (50) for providing air flow into the inlet hole of the base layer (30);supplying an electrical current to the fan (50) such that the fan (50) pushes a volume of air at a preselected velocity into the inlet hole of the base layer (30); andmoving the amount of air from the inlet hole of the base layer (30) through the second group of coils (48) of the pocketed coil layer (40) and out of the first surface (22) of the body supporting layer (20),wherein the first group of pocketed coils (46) comprises a first fabric (47) that is air impermeable, andwherein the second group of pocketed coils (48) comprises a second fabric (49) that is air permeable.
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- 2019-02-21 CN CN201980014654.0A patent/CN111741698B/en active Active
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- 2019-02-21 US US16/971,099 patent/US11375825B2/en active Active
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CA3091349A1 (en) | 2019-08-29 |
EP3755181A1 (en) | 2020-12-30 |
AU2019226008A1 (en) | 2020-08-27 |
KR20200111274A (en) | 2020-09-28 |
CN111741698B (en) | 2022-11-08 |
PL3755181T3 (en) | 2024-04-02 |
AU2019226008B2 (en) | 2024-02-01 |
JP2021513904A (en) | 2021-06-03 |
DK3755181T3 (en) | 2024-02-05 |
ES2970124T3 (en) | 2024-05-27 |
JP7224362B2 (en) | 2023-02-17 |
US11375825B2 (en) | 2022-07-05 |
EP3755181A4 (en) | 2021-11-10 |
WO2019165074A1 (en) | 2019-08-29 |
US20200390248A1 (en) | 2020-12-17 |
CN111741698A (en) | 2020-10-02 |
KR102465811B1 (en) | 2022-11-09 |
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